The Astrophysical Journal (Jan 2024)

Constraints on the Spacetime Variation of the Fine-structure Constant Using DESI Emission-line Galaxies

  • Linhua Jiang,
  • Zhiwei Pan,
  • Jessica Nicole Aguilar,
  • Steven Ahlen,
  • Robert Blum,
  • David Brooks,
  • Todd Claybaugh,
  • Axel de la Macorra,
  • Arjun Dey,
  • Peter Doel,
  • Kevin Fanning,
  • Simone Ferraro,
  • Jaime E. Forero-Romero,
  • Enrique Gaztañaga,
  • Satya Gontcho A Gontcho,
  • Gaston Gutierrez,
  • Klaus Honscheid,
  • Stephanie Juneau,
  • Martin Landriau,
  • Laurent Le Guillou,
  • Michael Levi,
  • Marc Manera,
  • Ramon Miquel,
  • John Moustakas,
  • Eva-Maria Mueller,
  • Andrea Muñoz-Gutiérrez,
  • Adam Myers,
  • Jundan Nie,
  • Gustavo Niz,
  • Claire Poppett,
  • Francisco Prada,
  • Mehdi Rezaie,
  • Graziano Rossi,
  • Eusebio Sanchez,
  • Edward Schlafly,
  • Michael Schubnell,
  • Hee-Jong Seo,
  • David Sprayberry,
  • Gregory Tarlé,
  • Benjamin Alan Weaver,
  • Hu Zou,
  • The DESI Collaboration

DOI
https://doi.org/10.3847/1538-4357/ad47b4
Journal volume & issue
Vol. 968, no. 2
p. 120

Abstract

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We present strong constraints on the spacetime variation of the fine-structure constant α using the Dark Energy Spectroscopic Instrument (DESI). In this pilot work, we utilize ∼110,000 galaxies with strong and narrow [O iii ] λ λ 4959, 5007 emission lines to measure the relative variation Δ α / α in space and time. The [O iii ] doublet is arguably the best choice for this purpose owing to its wide wavelength separation between the two lines and its strong emission in many galaxies. Our galaxy sample spans a redshift range of 0 < z < 0.95, covering half of all cosmic time. We divide the sample into subsamples in 10 redshift bins (Δ z = 0.1), and calculate Δ α / α for the individual subsamples. The uncertainties of the measured Δ α / α are roughly between 2 × 10 ^−6 and 2 × 10 ^−5 . We find an apparent α variation with redshift at a level of Δ α / α = (2–3) × 10 ^−5 . This is highly likely to be caused by systematics associated with wavelength calibration, since such small systematics can be caused by a wavelength distortion of 0.002–0.003 Å, which is beyond the accuracy that the current DESI data can achieve. We refine the wavelength calibration using sky lines for a small fraction of the galaxies, but this does not change our main results. We further probe the spatial variation of α in small redshift ranges, and do not find obvious, large-scale structures in the spatial distribution of Δ α / α . As DESI is ongoing, we will include more galaxies, and by improving the wavelength calibration, we expect to obtain a better constraint that is comparable to the strongest current constraint.

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